Configuring BGP Neighbor Session Options

This module describes configuration tasks to configure various options involving Border Gateway Protocol (BGP) neighbor peer sessions. BGP is an interdomain routing protocol designed to provide loop-free routing between organizations. This module contains tasks that use BGP neighbor session commands to configure:

  • Options to help an autonomous system migration

  • TTL Security Check, a lightweight security mechanism to protect External BGP (eBGP) peering sessions from CPU-utilization-based attacks

Finding Feature Information

Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table at the end of this module.

Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/​go/​cfn. An account on Cisco.com is not required.

Information About Configuring BGP Neighbor Session Options

BGP Neighbor Sessions

BGP is mainly used to connect a local network to an external network to gain access to the Internet or to connect to other organizations. A BGP-speaking router does not discover another BGP-speaking device automatically. A network administrator usually manually configures the relationships between BGP-speaking routers.

A BGP neighbor device is a BGP-speaking router that has an active TCP connection to another BGP-speaking device. This relationship between BGP devices is often referred to as a peer instead of neighbor because a neighbor may imply the idea that the BGP devices are directly connected with no other router in between. Configuring BGP neighbor or peer sessions uses BGP neighbor session commands so this module uses the term “neighbor” over “peer.”

BGP Support for Fast Peering Session Deactivation

BGP Hold Timer

By default, the BGP hold timer is set to run every 180 seconds in Cisco software. This timer value is set as the default to protect the BGP routing process from instability that can be caused by peering sessions with other routing protocols. BGP devices typically carry large routing tables, so frequent session resets are not desirable.

BGP Fast Peering Session Deactivation

BGP fast peering session deactivation improves BGP convergence and response time to adjacency changes with BGP neighbors. This feature is event driven and configured on a per-neighbor basis. When this feature is enabled, BGP will monitor the peering session with the specified neighbor. Adjacency changes are detected and terminated peering sessions are deactivated in between the default or configured BGP scanning interval.

Selective Address Tracking for BGP Fast Session Deactivation

In Cisco IOS Release 12.4(4)T, 12.2(31)SB, 12.2(33)SRB, and later releases, the BGP Selective Address Tracking feature introduced the use of a route map with BGP fast session deactivation. The route-map keyword and map-name argument are used with the neighbor fall-over BGP neighbor session command to determine if a peering session with a BGP neighbor should be reset when a route to the BGP peer changes. The route map is evaluated against the new route, and if a deny statement is returned, the peer session is reset. The route map is not used for session establishment.


Note


The neighbor fall-over command is not supported in Cisco IOS Release 15.0(1)SY. The route-map and map-name keyword-argument pair in the bgp nexthop command are not supported in Cisco IOS Release 15.0(1)SY.



Note


Only match ip address and match source-protocol commands are supported in the route map. No set commands or other match commands are supported.


BFD Support of BGP IPv6 Neighbors

In Cisco IOS Release 15.1(2)S and later releases, Bidirectional Forwarding Detection (BFD) can be used to track fast forwarding path failure of BGP neighbors that have an IPv6 address. BFD is a detection protocol that is designed to provide fast forwarding path failure detection times for all media types, encapsulations, topologies, and routing protocols. BFD provides faster reconvergence time for BGP after a forwarding path failure.

TTL Security Check for BGP Neighbor Sessions

BGP Support for the TTL Security Check

When implemented for BGP, the TTL Security Check feature introduces a lightweight security mechanism to protect eBGP neighbor sessions from CPU utilization-based attacks. These types of attacks are typically brute force Denial of Service (DoS) attacks that attempt to disable the network by flooding the network with IP packets that contain forged source and destination IP addresses.

The TTL Security Check feature protects the eBGP neighbor session by comparing the value in the TTL field of received IP packets against a hop count that is configured locally for each eBGP neighbor session. If the value in the TTL field of the incoming IP packet is greater than or equal to the locally configured value, the IP packet is accepted and processed normally. If the TTL value in the IP packet is less than the locally configured value, the packet is silently discarded and no Internet Control Message Protocol (ICMP) message is generated. This is designed behavior; a response to a forged packet is unnecessary.

Although it is possible to forge the TTL field in an IP packet header, accurately forging the TTL count to match the TTL count from a trusted peer is impossible unless the network to which the trusted peer belongs has been compromised.

The TTL Security Check feature supports both directly connected neighbor sessions and multihop eBGP neighbor sessions. The BGP neighbor session is not affected by incoming packets that contain invalid TTL values. The BGP neighbor session will remain open, and the router will silently discard the invalid packet. The BGP session, however, can still expire if keepalive packets are not received before the session timer expires.

TTL Security Check for BGP Neighbor Sessions

The BGP Support for TTL Security Check feature is configured with the neighbor ttl-security command in router configuration mode or address family configuration mode. When this feature is enabled, BGP will establish or maintain a session only if the TTL value in the IP packet header is equal to or greater than the TTL value configured for the peering session. Enabling this feature secures the eBGP session in the incoming direction only and has no effect on outgoing IP packets or the remote router. The hop-count argument is used to configure the maximum number of hops that separate the two peers. The TTL value is determined by the router from the configured hop count. The value for this argument is a number from 1 to 254.

TTL Security Check Support for Multihop BGP Neighbor Sessions

The BGP Support for TTL Security Check feature supports both directly connected neighbor sessions and multihop neighbor sessions. When this feature is configured for a multihop neighbor session, the neighbor ebgp-multihop router configuration command cannot be configured and is not needed to establish the neighbor session. These commands are mutually exclusive, and only one command is required to establish a multihop neighbor session. If you attempt to configure both commands for the same peering session, an error message will be displayed in the console.

To configure this feature for an existing multihop session, you must first disable the existing neighbor session with the no neighbor ebgp-multihop command. The multihop neighbor session will be restored when you enable this feature with the neighbor ttl-security command.

This feature should be configured on each participating router. To maximize the effectiveness of this feature, the hop-count argument should be strictly configured to match the number of hops between the local and external network. However, you should also consider path variation when configuring this feature for a multihop neighbor session.

Benefits of the BGP Support for TTL Security Check

The BGP Support for TTL Security Check feature provides an effective and easy-to-deploy solution to protect eBGP neighbor sessions from CPU utilization-based attacks. When this feature is enabled, a host cannot attack a BGP session if the host is not a member of the local or remote BGP network or if the host is not directly connected to a network segment between the local and remote BGP networks. This solution greatly reduces the effectiveness of DoS attacks against a BGP autonomous system.

BGP Support for TCP Path MTU Discovery per Session

Path MTU Discovery

The IP protocol family was designed to use a wide variety of transmission links. The maximum IP packet length is 65000 bytes. Most transmission links enforce a smaller maximum packet length limit, called the maximum transmission unit (MTU), which varies with the type of the transmission link. The design of IP accommodates link packet length limits by allowing intermediate routers to fragment IP packets as necessary for their outgoing links. The final destination of an IP packet is responsible for reassembling its fragments as necessary.

All TCP sessions are bounded by a limit on the number of bytes that can be transported in a single packet, and this limit is known as the maximum segment size (MSS). TCP breaks up packets into chunks in a transmit queue before passing packets down to the IP layer. A smaller MSS may not be fragmented at an IP device along the path to the destination device, but smaller packets increase the amount of bandwidth needed to transport the packets. The maximum TCP packet length is determined by both the MTU of the outbound interface on the source device and the MSS announced by the destination device during the TCP setup process.

Path MTU discovery (PMTUD) was developed as a solution to the problem of finding the optimal TCP packet length. PMTUD is an optimization (detailed in RFC 1191) wherein a TCP connection attempts to send the longest packets that will not be fragmented along the path from source to destination. It does this by using a flag, don’t fragment (DF), in the IP packet. This flag is supposed to alter the behavior of an intermediate router that cannot send the packet across a link because it is too long. Normally the flag is off, and the router should fragment the packet and send the fragments. If a router tries to forward an IP datagram, with the DF bit set, to a link that has a lower MTU than the size of the packet, the router will drop the packet and return an ICMP Destination Unreachable message to the source of this IP datagram, with the code indicating "fragmentation needed and DF set." When the source device receives the ICMP message, it will lower the send MSS, and when TCP retransmits the segment, it will use the smaller segment size.

BGP Neighbor Session TCP PMTUD

TCP path MTU discovery is enabled by default for all BGP neighbor sessions, but there are situations when you may want to disable TCP path MTU discovery for one or all BGP neighbor sessions. Although PMTUD works well for larger transmission links (for example, Packet over Sonet links), a badly configured TCP implementation or a firewall may slow or stop the TCP connections from forwarding any packets. In this type of situation, you may need to disable TCP path MTU discovery.

In Cisco software, configuration options were introduced to permit TCP path MTU discovery to be disabled, or subsequently reenabled, either for a single BGP neighbor session or for all BGP sessions. To disable the TCP path MTU discovery globally for all BGP neighbors, use the no bgp transport path-mtu-discovery command in router configuration mode. To disable the TCP path MTU discovery for a single neighbor, use the no neighbor transport path-mtu-discovery command in router configuration mode or address family configuration mode. For more details, see the “Disabling TCP Path MTU Discovery Globally for All BGP Sessions” section or the “Disabling TCP Path MTU Discovery for a Single BGP Neighbor” section.

How to Configure BGP Neighbor Session Options

Configuring Fast Session Deactivation

The tasks in this section show how to configure BGP next-hop address tracking. BGP next-hop address tracking significantly improves the response time of BGP to next-hop changes in the RIB. However, unstable Interior Gateway Protocol (IGP) peers can introduce instability to BGP neighbor sessions. We recommend that you aggressively dampen unstable IGP peering sessions to reduce the possible impact to BGP. For more details about route dampening, see the "Configuring Internal BGP Features" module.

Configuring Fast Session Deactivation for a BGP Neighbor

Perform this task to establish a peering session with a BGP neighbor and then configure the peering session for fast session deactivation to improve the network convergence time if the peering session is deactivated.

Enabling fast session deactivation for a BGP neighbor can significantly improve BGP convergence time. However, unstable IGP peers can still introduce instability to BGP neighbor sessions. We recommend that you aggressively dampen unstable IGP peering sessions to reduce the possible impact to BGP.

SUMMARY STEPS

    1.    enable

    2.    configure terminal

    3.    router bgp autonomous-system-number

    4.    Enter one of the following commands:

    • address-family ipv4 [unicast [vrf vrf-name] | vrf vrf-name]
    • address-family ipv6 [unicast [vrf vrf-name] | vrf vrf-name]

    5.    neighbor ip-address remote-as autonomous-system-number

    6.    neighbor ip-address fall-over

    7.    end


DETAILED STEPS
     Command or ActionPurpose
    Step 1 enable


    Example:
    Device> enable
     

    Enables privileged EXEC mode.

    • Enter your password if prompted.

     
    Step 2 configure terminal


    Example:
    Device# configure terminal
     

    Enters global configuration mode.

     
    Step 3 router bgp autonomous-system-number


    Example:
    Device(config)# router bgp 50000
     

    Enters router configuration mode to create or configure a BGP routing process.

     
    Step 4Enter one of the following commands:
    • address-family ipv4 [unicast [vrf vrf-name] | vrf vrf-name]
    • address-family ipv6 [unicast [vrf vrf-name] | vrf vrf-name]


    Example:
    Device(config-router)# address-family ipv4 unicast vrf blue 
     
    Enters address family configuration mode and enables IPv4 or IPv6 addressing. Perform this step when configuring fast session deactivation for a VRF address-family.
    Note   

    Step 4 is only required if you are configuring fast session deactivation on a VRF. If you are not configuring fast session deactivation on a VRF, skip this step and perform the following commands under router BGP mode (config-router) rather than address family configuration mode (config-router-af).

     
    Step 5 neighbor ip-address remote-as autonomous-system-number


    Example:
    Device(config-router-af)# neighbor 10.0.0.1 remote-as 50000 
     

    Establishes a peering session with a BGP neighbor.

     
    Step 6 neighbor ip-address fall-over


    Example:
    Device(config-router-af)# neighbor 10.0.0.1 fall-over 
     

    Configures the BGP peering to use fast session deactivation.

    • BGP will remove all routes learned through this peer if the session is deactivated.

     
    Step 7 end


    Example:
    Device(config-router-af)# end 
     

    Exits address family configuration mode and enters privileged EXEC mode.

     

    Configuring Selective Address Tracking for Fast Session Deactivation

    Perform this task to configure selective address tracking for fast session deactivation. The optional route-map keyword and map-name argument of the neighbor fall-over command are used to determine if a peering session with a BGP neighbor should be deactivated (reset) when a route to the BGP peer changes. The route map is evaluated against the new route, and if a deny statement is returned, the peer session is reset.


    Note


    Only match ip address and match source-protocol commands are supported in the route map. No set commands or other match commands are supported.


    SUMMARY STEPS

      1.    enable

      2.    configure terminal

      3.    router bgp autonomous-system-number

      4.    neighbor {ip-address | peer-group-name} remote-as autonomous-system-number

      5.    neighbor ip-address fall-over [route-map map-name]

      6.    exit

      7.    ip prefix-list list-name [seq seq-value ]{deny network / length | permit network / length} [ge ge-value] [le le-value]

      8.    route-map map-name [permit | deny] [sequence-number]

      9.    match ip address prefix-list prefix-list-name [prefix-list-name...]

      10.    end


    DETAILED STEPS
       Command or ActionPurpose
      Step 1 enable


      Example:
      Device> enable
       

      Enables privileged EXEC mode.

      • Enter your password if prompted.

       
      Step 2 configure terminal


      Example:
      Device# configure terminal
       

      Enters global configuration mode.

       
      Step 3 router bgp autonomous-system-number


      Example:
      Device(config)# router bgp 45000
       

      Enters router configuration mode for the specified routing process.

       
      Step 4 neighbor {ip-address | peer-group-name} remote-as autonomous-system-number


      Example:
      Device(config-router)# neighbor 192.168.1.2 remote-as 40000
       

      Adds the IP address or peer group name of the neighbor in the specified autonomous system to the IPv4 multiprotocol BGP neighbor table of the local router.

       
      Step 5 neighbor ip-address fall-over [route-map map-name]


      Example:
      Device(config-router)# neighbor 192.168.1.2 fall-over route-map CHECK-NBR
       

      Applies a route map when a route to the BGP changes.

      • In this example, the route map named CHECK-NBR is applied when the route to neighbor 192.168.1.2 changes.

       
      Step 6 exit


      Example:
      Device(config-router)# exit
       

      Exits router configuration mode and enters global configuration mode.

       
      Step 7 ip prefix-list list-name [seq seq-value ]{deny network / length | permit network / length} [ge ge-value] [le le-value]


      Example:
      Device(config)# ip prefix-list FILTER28 seq 5 permit 0.0.0.0/0 ge 28 
       

      Creates a prefix list for BGP next-hop route filtering.

      • Selective next-hop route filtering supports prefix- length matching or source-protocol matching on a per-address family basis.

      • The example creates a prefix list named FILTER28 that permits routes only if the mask length is greater than or equal to 28.

       
      Step 8 route-map map-name [permit | deny] [sequence-number]


      Example:
      Device(config)# route-map CHECK-NBR permit 10
       

      Configures a route map and enters route-map configuration mode.

      • In this example, a route map named CHECK-NBR is created. If there is an IP address match in the following match command, the IP address will be permitted.

       
      Step 9 match ip address prefix-list prefix-list-name [prefix-list-name...]


      Example:
      Device(config-route-map)# match ip address prefix-list FILTER28
       

      Matches the IP addresses in the specified prefix list.

      • Use the prefix-list-name argument to specify the name of a prefix list. The ellipsis means that more than one prefix list can be specified.

      Note   

      Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

       
      Step 10 end


      Example:
      Device(config-route-map)# end
       

      Exits route-map configuration mode and enters privileged EXEC mode.

       

      What to Do Next

      After the peer policy template is created, the configuration of the peer policy template can be inherited or applied by another peer policy template. For details about peer policy inheritance, see the “Configuring Peer Policy Template Inheritance with the inherit peer-policy Command” section or the “Configuring Peer Policy Template Inheritance with the neighbor inherit peer-policy Command” section.

      Configuring BFD for BGP IPv6 Neighbors

      In Cisco IOS Release 15.1(2)S and later releases, Bidirectional Forwarding Detection (BFD) can be used for BGP neighbors that have an IPv6 address.

      Once it has been verified that BFD neighbors are up, the show bgp ipv6 unicast neighbors command will indicate that BFD is being used to detect fast fallover on the specified neighbor.

      SUMMARY STEPS

        1.    enable

        2.    configure terminal

        3.    ipv6 unicast-routing

        4.    ipv6 cef

        5.    interface type number

        6.    ipv6 address ipv6-address / prefix-length

        7.    bfd interval milliseconds min_rx milliseconds multiplier multiplier-value

        8.    no shutdown

        9.    exit

        10.    router bgp autonomous-system-number

        11.    no bgp default ipv4-unicast

        12.    address-family ipv6 [vrf vrf-name] [unicast | multicast | vpnv6]

        13.    neighbor ipv6-address remote-as autonomous-system-number

        14.    neighbor ipv6-address fall-over bfd

        15.    end


      DETAILED STEPS
         Command or ActionPurpose
        Step 1 enable


        Example:
        Device> enable
         

        Enables privileged EXEC mode.

        • Enter your password if prompted.

         
        Step 2 configure terminal


        Example:
        Device# configure terminal
         

        Enters global configuration mode.

         
        Step 3 ipv6 unicast-routing


        Example:
        Device(config)# ipv6 unicast-routing
         

        Enables the forwarding of IPv6 unicast datagrams.

         
        Step 4 ipv6 cef


        Example:
        Device(config)# ipv6 cef
         

        Enables Cisco Express Forwarding for IPv6.

         
        Step 5 interface type number


        Example:
        Device(config)# interface fastethernet 0/1
         

        Configures an interface type and number.

         
        Step 6 ipv6 address ipv6-address / prefix-length


        Example:
        Device(config-if)# ipv6 address 2001:DB8:1:1::1/64
         

        Configures an IPv6 address and enables IPv6 processing on an interface.

         
        Step 7 bfd interval milliseconds min_rx milliseconds multiplier multiplier-value


        Example:
        Device(config-if)# bfd interval 500 min_rx 500 multiplier 3
         

        Sets the baseline BFD session parameters on an interface.

         
        Step 8 no shutdown


        Example:
        Device(config-if)# no shutdown
         

        Restarts an interface.

         
        Step 9 exit


        Example:
        Device(config-if)# exit
         

        Exits interface configuration mode and enters global configuration mode.

         
        Step 10 router bgp autonomous-system-number


        Example:
        Device(config)# router bgp 40000
         

        Enters router configuration mode for the specified routing process.

         
        Step 11 no bgp default ipv4-unicast


        Example:
        Device(config-router)# no bgp default ipv4-unicast
         

        Disables the default IPv4 unicast address family for establishing peering sessions.

        • We recommend configuring this command in the global scope.

         
        Step 12 address-family ipv6 [vrf vrf-name] [unicast | multicast | vpnv6]


        Example:
        Device(config-router)# address-family ipv6
         

        Enters address family configuration mode and enables IPv6 addressing.

         
        Step 13 neighbor ipv6-address remote-as autonomous-system-number


        Example:
        Device(config-router-af)# neighbor 2001:DB8:2:1::4 remote-as 45000
         

        Adds the IP address of the neighbor in the specified autonomous system to the IPv6 BGP neighbor table of the local router.

         
        Step 14 neighbor ipv6-address fall-over bfd


        Example:
        Device(config-router-af)# neighbor 2001:DB8:2:1::4 fall-over bfd
         

        Enables BGP to monitor the peering session of an IPv6 neighbor using BFD.

         
        Step 15 end


        Example:
        Device(config-router-af)# end
         

        Exits address family configuration mode and enters privileged EXEC mode.

         

        Configuring the TTL Security Check for BGP Neighbor Sessions

        Perform this task to allow BGP to establish or maintain a session only if the TTL value in the IP packet header is equal to or greater than the TTL value configured for the BGP neighbor session.

        Before You Begin
        • To maximize the effectiveness of the BGP Support for TTL Security Check feature, we recommend that you configure it on each participating router. Enabling this feature secures the eBGP session in the incoming direction only and has no effect on outgoing IP packets or the remote router.


        Note


        • The neighbor ebgp-multihop command is not needed when the BGP Support for TTL Security Check feature is configured for a multihop neighbor session and should be disabled before configuring this feature.
        • The effectiveness of the BGP Support for TTL Security Check feature is reduced in large-diameter multihop peerings. In the event of a CPU utilization-based attack against a BGP router that is configured for large-diameter peering, you may still need to shut down the affected neighbor sessions to handle the attack.
        • This feature is not effective against attacks from a peer that has been compromised inside of the local and remote network. This restriction also includes peers that are on the network segment between the local and remote network.

        SUMMARY STEPS

          1.    enable

          2.    trace [protocol] destination

          3.    configure terminal

          4.    router bgp autonomous-system-number

          5.    neighbor ip-address ttl-security hops hop-count

          6.    end

          7.    show running-config

          8.    show ip bgp neighbors [ip-address]


        DETAILED STEPS
           Command or ActionPurpose
          Step 1 enable


          Example:
          Device> enable
           

          Enables privileged EXEC mode.

          • Enter your password if prompted.

           
          Step 2 trace [protocol] destination


          Example:
          Device# trace ip 10.1.1.1
           

          Discovers the routes of the specified protocol that packets will actually take when traveling to their destination.

          • Enter the trace command to determine the number of hops to the specified peer.

           
          Step 3 configure terminal


          Example:
          Device# configure terminal
           

          Enters global configuration mode.

           
          Step 4 router bgp autonomous-system-number


          Example:
          Device(config)# router bgp 65000
           

          Enters router configuration mode, and creates a BGP routing process.

           
          Step 5 neighbor ip-address ttl-security hops hop-count


          Example:
          Device(config-router)# neighbor 10.1.1.1 ttl-security hops 2 
           

          Configures the maximum number of hops that separate two peers.

          • The hop-count argument is set to the number of hops that separate the local and remote peer. If the expected TTL value in the IP packet header is 254, then the number 1 should be configured for the hop-count argument. The range of values is a number from 1 to 254.

          • When the BGP Support for TTL Security Check feature is enabled, BGP will accept incoming IP packets with a TTL value that is equal to or greater than the expected TTL value. Packets that are not accepted are discarded.

          • The example configuration sets the expected incoming TTL value to at least 253, which is 255 minus the TTL value of 2, and this is the minimum TTL value expected from the BGP peer. The local router will accept the peering session from the 10.1.1.1 neighbor only if it is one or two hops away.

           
          Step 6 end


          Example:
          Device(config-router)# end
           

          Exits router configuration mode and enters privileged EXEC mode.

           
          Step 7 show running-config


          Example:
          Device# show running-config | begin bgp 
           

          (Optional) Displays the contents of the currently running configuration file.

          • The output of this command displays the configuration of the neighbor ttl-security command for each peer under the BGP configuration section of output. That section includes the neighbor address and the configured hop count.

          Note   

          Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

           
          Step 8 show ip bgp neighbors [ip-address]


          Example:
          Device# show ip bgp neighbors 10.4.9.5
           

          (Optional) Displays information about the TCP and BGP connections to neighbors.

          • This command displays "External BGP neighbor may be up to number hops away" when the BGP Support for TTL Security Check feature is enabled. The number value represents the hop count. It is a number from 1 to 254.

          Note   

          Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

           

          Examples

          The configuration of the BGP Support for TTL Security Check feature can be verified with the show running-config and show ip bgp neighbors commands. This feature is configured locally on each peer, so there is no remote configuration to verify.

          The following is sample output from the show running-config command. The output shows that neighbor 10.1.1.1 is configured to establish or maintain the neighbor session only if the expected TTL count in the incoming IP packet is 253 or 254.

          Router# show running-config 
          | begin bgp 
                   
          router bgp 65000
           no synchronization
           bgp log-neighbor-changes
           neighbor 10.1.1.1 remote-as 55000
           neighbor 10.1.1.1 ttl-security hops 2 
           no auto-summary
          .
          .
          .
          

          The following is sample output from the show ip bgp neighbors command. The output shows that the local router will accept packets from the 10.1.1.1 neighbor if it is no more than 2 hops away. The configuration of this feature is displayed in the address family section of the output. The relevant line is shown in bold in the output.

          Router# show ip bgp neighbors 10.1.1.1
          BGP neighbor is 10.1.1.1,  remote AS 55000, external link
            BGP version 4, remote router ID 10.2.2.22
            BGP state = Established, up for 00:59:21
            Last read 00:00:21, hold time is 180, keepalive interval is 60 seconds
            Neighbor capabilities:
              Route refresh: advertised and received(new)
              Address family IPv4 Unicast: advertised and received
            Message statistics:
              InQ depth is 0
              OutQ depth is 0
                                   Sent       Rcvd
              Opens:                  2          2
              Notifications:          0          0
              Updates:                0          0
              Keepalives:           226        227
              Route Refresh:          0          0
              Total:                228        229
            Default minimum time between advertisement runs is 5 seconds
           For address family: IPv4 Unicast
            BGP table version 1, neighbor version 1/0
            Output queue sizes : 0 self, 0 replicated
            Index 1, Offset 0, Mask 0x2
            Member of update-group 1
                                           Sent       Rcvd
            Prefix activity:               ----       ----
              Prefixes Current:               0          0
              Prefixes Total:                 0          0
              Implicit Withdraw:              0          0
              Explicit Withdraw:              0          0
              Used as bestpath:             n/a          0
              Used as multipath:            n/a          0
                                             Outbound    Inbound
            Local Policy Denied Prefixes:    --------    -------
              Total:                                0          0
            Number of NLRIs in the update sent: max 0, min 0
            Connections established 2; dropped 1
            Last reset 00:59:50, due to User reset
            External BGP neighbor may be up to 2 hops away.
          Connection state is ESTAB, I/O status: 1, unread input bytes: 0
          Local host: 10.2.2.22, Local port: 179
          Foreign host: 10.1.1.1, Foreign port: 11001
          Enqueued packets for retransmit: 0, input: 0  mis-ordered: 0 (0 bytes)
          Event Timers (current time is 0xCC28EC):
          Timer          Starts    Wakeups            Next
          Retrans            63          0             0x0
          TimeWait            0          0             0x0
          AckHold            62         50             0x0
          SendWnd             0          0             0x0
          KeepAlive           0          0             0x0
          GiveUp              0          0             0x0
          PmtuAger            0          0             0x0
          DeadWait            0          0             0x0
          iss:  712702676  snduna:  712703881  sndnxt:  712703881     sndwnd:  15180
          irs: 2255946817  rcvnxt: 2255948041  rcvwnd:      15161  delrcvwnd:   1223
          SRTT: 300 ms, RTTO: 607 ms, RTV: 3 ms, KRTT: 0 ms
          minRTT: 0 ms, maxRTT: 300 ms, ACK hold: 200 ms
          Flags: passive open, nagle, gen tcbs
                    
          Datagrams (max data segment is 1460 bytes):
          Rcvd: 76 (out of order: 0), with data: 63, total data bytes: 1223
          Sent: 113 (retransmit: 0, fastretransmit: 0), with data: 62, total data bytes: 4

          Configuring BGP Support for TCP Path MTU Discovery per Session

          This section contains the following tasks:

          Disabling TCP Path MTU Discovery Globally for All BGP Sessions

          Perform this task to disable TCP path MTU discovery for all BGP sessions. TCP path MTU discovery is enabled by default when you configure BGP sessions, but we recommend that you enter the show ip bgp neighbors command to ensure that TCP path MTU discovery is enabled.

          Before You Begin

          This task assumes that you have previously configured BGP neighbors with active TCP connections.

          SUMMARY STEPS

            1.    enable

            2.    show ip bgp neighbors [ip-address]

            3.    configure terminal

            4.    router bgp autonomous-system-number

            5.    no bgp transport path-mtu-discovery

            6.    end

            7.    show ip bgp neighbors [ip-address]


          DETAILED STEPS
             Command or ActionPurpose
            Step 1 enable


            Example:
            Device> enable
             

            Enables privileged EXEC mode.

            • Enter your password if prompted.

             
            Step 2 show ip bgp neighbors [ip-address]


            Example:
            Device# show ip bgp neighbors
             

            (Optional) Displays information about the TCP and BGP connections to neighbors.

            • Use this command to determine whether BGP neighbors have TCP path MTU discovery enabled.

            Note   

            Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

             
            Step 3 configure terminal


            Example:
            Device# configure terminal
             

            Enters global configuration mode.

             
            Step 4 router bgp autonomous-system-number


            Example:
            Device(config)# router bgp 50000
             

            Enters router configuration mode to create or configure a BGP routing process.

             
            Step 5 no bgp transport path-mtu-discovery


            Example:
            Device(config-router)# no bgp transport path-mtu-discovery
             

            Disables TCP path MTU discovery for all BGP sessions.

             
            Step 6 end


            Example:
            Device(config-router)# end
             

            Exits router configuration mode and returns to privileged EXEC mode.

             
            Step 7 show ip bgp neighbors [ip-address]


            Example:
            Device# show ip bgp neighbors
             

            (Optional) Displays information about the TCP and BGP connections to neighbors.

            • In this example, the output from this command will not display that any neighbors have TCP path MTU enabled.

            Note   

            Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

             

            Examples

            The following sample output from the show ip bgp neighbors command shows that TCP path MTU discovery is enabled for BGP neighbors. Two entries in the output—Transport(tcp) path-mtu-discovery is enabled and path mtu capable—show that TCP path MTU discovery is enabled.

            Router# show ip bgp neighbors
            
            BGP neighbor is 172.16.1.2,  remote AS 45000, internal link
              BGP version 4, remote router ID 172.16.1.99
            .
            .
            .
             For address family: IPv4 Unicast
              BGP table version 5, neighbor version 5/0
            .
            .
            .
              Address tracking is enabled, the RIB does have a route to 172.16.1.2
              Address tracking requires at least a /24 route to the peer
              Connections established 3; dropped 2
              Last reset 00:00:35, due to Router ID changed
              Transport(tcp) path-mtu-discovery is enabled
            .
            .
            .
            SRTT: 146 ms, RTTO: 1283 ms, RTV: 1137 ms, KRTT: 0 ms
            minRTT: 8 ms, maxRTT: 300 ms, ACK hold: 200 ms
            Flags: higher precedence, retransmission timeout, nagle, path mtu capable
            

            The following is sample output from the show ip bgp neighbors command after the no bgp transport path-mtu-discovery command has been entered. Note that the path mtu entries are missing.

            Router# show ip bgp neighbors
            
            BGP neighbor is 172.16.1.2,  remote AS 45000, internal link
              BGP version 4, remote router ID 172.16.1.99
            .
            .
            .
             For address family: IPv4 Unicast
              BGP table version 5, neighbor version 5/0
            .
            .
            .
              Address tracking is enabled, the RIB does have a route to 172.16.1.2
              Address tracking requires at least a /24 route to the peer
              Connections established 3; dropped 2
              Last reset 00:00:35, due to Router ID changed
            .
            .
            .
            SRTT: 146 ms, RTTO: 1283 ms, RTV: 1137 ms, KRTT: 0 ms
            minRTT: 8 ms, maxRTT: 300 ms, ACK hold: 200 ms
            Flags: higher precedence, retransmission timeout, nagle

            Disabling TCP Path MTU Discovery for a Single BGP Neighbor

            Perform this task to establish a peering session with an internal BGP (iBGP) neighbor and then disable TCP path MTU discovery for the BGP neighbor session. The neighbor transport command can be used in router configuration mode or address family configuration mode.

            Before You Begin

            This task assumes that you know that TCP path MTU discovery is enabled by default for all your BGP neighbors.

            SUMMARY STEPS

              1.    enable

              2.    configure terminal

              3.    router bgp autonomous-system-number

              4.    address-family {ipv4 [mdt | multicast | unicast [vrf vrf-name] | vrf vrf-name] | vpnv4 [unicast]}

              5.    neighbor {ip-address| peer-group-name} remote-as autonomous-system-number

              6.    neighbor {ip-address| peer-group-name} activate

              7.    no neighbor {ip-address| peer-group-name} transport{connection-mode | path-mtu-discovery}

              8.    end

              9.    show ip bgp neighbors


            DETAILED STEPS
               Command or ActionPurpose
              Step 1 enable


              Example:
              Device> enable
               

              Enables privileged EXEC mode.

              • Enter your password if prompted.

               
              Step 2 configure terminal


              Example:
              Device# configure terminal
               

              Enters global configuration mode.

               
              Step 3 router bgp autonomous-system-number


              Example:
              Device(config)# router bgp 45000
               

              Enters router configuration mode for the specified routing process.

               
              Step 4 address-family {ipv4 [mdt | multicast | unicast [vrf vrf-name] | vrf vrf-name] | vpnv4 [unicast]}


              Example:
              Device(config-router)# address-family ipv4 unicast
               

              Enters address family configuration mode to configure BGP peers to accept address-family-specific configurations.

              • The example creates an IPv4 unicast address family session.

               
              Step 5 neighbor {ip-address| peer-group-name} remote-as autonomous-system-number


              Example:
              Device(config-router-af)# neighbor 192.168.1.1 remote-as 45000
               

              Adds the IP address or peer group name of the neighbor in the specified autonomous system to the IPv4 multiprotocol BGP neighbor table of the local router.

               
              Step 6 neighbor {ip-address| peer-group-name} activate


              Example:
              Device(config-router-af)# neighbor 172.16.1.1 activate
               

              Activates the neighbor under the IPv4 address family.

               
              Step 7 no neighbor {ip-address| peer-group-name} transport{connection-mode | path-mtu-discovery}


              Example:
              Device(config-router-af)# no neighbor 172.16.1.1 transport path-mtu-discovery
               

              Disables TCP path MTU discovery for a single BGP neighbor.

              • In this example, TCP path MTU discovery is disabled for the neighbor at 172.16.1.1.

               
              Step 8 end


              Example:
              Device(config-router-af)# end
               

              Exits address family configuration mode and returns to privileged EXEC mode.

               
              Step 9 show ip bgp neighbors


              Example:
              Device# show ip bgp neighbors
               

              (Optional) Displays information about the TCP and BGP connections to neighbors.

              • In this example, the output from this command will not display that the neighbor has TCP path MTU discovery enabled.

              Note   

              Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

               

              Examples

              The following sample output shows that TCP path MTU discovery has been disabled for BGP neighbor 172.16.1.1 but that it is still enabled for BGP neighbor 192.168.2.2. Two entries in the output—Transport(tcp) path-mtu-discovery is enabled and path mtu capable—show that TCP path MTU discovery is enabled.

              Router# show ip bgp neighbors
              BGP neighbor is 172.16.1.1,  remote AS 45000, internal link
                BGP version 4, remote router ID 172.17.1.99
              .
              .
              .
                Address tracking is enabled, the RIB does have a route to 172.16.1.1
                Address tracking requires at least a /24 route to the peer
                Connections established 1; dropped 0
                Last reset never
              .
              .
              .
              SRTT: 165 ms, RTTO: 1172 ms, RTV: 1007 ms, KRTT: 0 ms
              minRTT: 20 ms, maxRTT: 300 ms, ACK hold: 200 ms
              Flags: higher precedence, retransmission timeout, nagle
              .
              .
              .
              BGP neighbor is 192.168.2.2,  remote AS 50000, external link
                BGP version 4, remote router ID 10.2.2.99
              .
              .
              .
               For address family: IPv4 Unicast
                BGP table version 4, neighbor version 4/0
              .
              .
              .
                Address tracking is enabled, the RIB does have a route to 192.168.2.2
                Address tracking requires at least a /24 route to the peer
                Connections established 2; dropped 1
                Last reset 00:05:11, due to User reset
                Transport(tcp) path-mtu-discovery is enabled
              .
              .
              .
              SRTT: 210 ms, RTTO: 904 ms, RTV: 694 ms, KRTT: 0 ms
              minRTT: 20 ms, maxRTT: 300 ms, ACK hold: 200 ms
              Flags: higher precedence, retransmission timeout, nagle, path mtu capable

              Enabling TCP Path MTU Discovery Globally for All BGP Sessions

              Perform this task to enable TCP path MTU discovery for all BGP sessions. TCP path MTU discovery is enabled by default when you configure BGP sessions, but if the BGP Support for TCP Path MTU Discovery per Session feature has been disabled, you can use this task to reenable it. To verify that TCP path MTU discovery is enabled, use the show ip bgp neighbors command.

              Before You Begin

              This task assumes that you have previously configured BGP neighbors with active TCP connections.

              SUMMARY STEPS

                1.    enable

                2.    configure terminal

                3.    router bgp autonomous-system-number

                4.    bgp transport path-mtu-discovery

                5.    end

                6.    show ip bgp neighbors


              DETAILED STEPS
                 Command or ActionPurpose
                Step 1 enable


                Example:
                Device> enable
                 

                Enables privileged EXEC mode.

                • Enter your password if prompted.

                 
                Step 2 configure terminal


                Example:
                Device# configure terminal
                 

                Enters global configuration mode.

                 
                Step 3 router bgp autonomous-system-number


                Example:
                Device(config)# router bgp 45000
                 

                Enters router configuration mode to create or configure a BGP routing process.

                 
                Step 4 bgp transport path-mtu-discovery


                Example:
                Device(config-router)# bgp transport path-mtu-discovery
                 

                Enables TCP path MTU discovery for all BGP sessions.

                 
                Step 5 end


                Example:
                Device(config-router)# end
                 

                Exits router configuration mode and returns to privileged EXEC mode.

                 
                Step 6 show ip bgp neighbors


                Example:
                Device# show ip bgp neighbors
                 

                (Optional) Displays information about the TCP and BGP connections to neighbors.

                • In this example, the output from this command will show that all neighbors have TCP path MTU discovery enabled.

                Note   

                Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

                 

                Examples

                The following sample output from the show ip bgp neighbors command shows that TCP path MTU discovery is enabled for BGP neighbors. Two entries in the output—Transport(tcp) path-mtu-discovery is enabled and path mtu capable—show that TCP path MTU discovery is enabled.

                Router# show ip bgp neighbors
                BGP neighbor is 172.16.1.2,  remote AS 45000, internal link
                  BGP version 4, remote router ID 172.16.1.99
                .
                .
                .
                 For address family: IPv4 Unicast
                  BGP table version 5, neighbor version 5/0
                .
                .
                .
                  Address tracking is enabled, the RIB does have a route to 172.16.1.2
                  Address tracking requires at least a /24 route to the peer
                  Connections established 3; dropped 2
                  Last reset 00:00:35, due to Router ID changed
                  Transport(tcp) path-mtu-discovery is enabled
                .
                .
                .
                SRTT: 146 ms, RTTO: 1283 ms, RTV: 1137 ms, KRTT: 0 ms
                minRTT: 8 ms, maxRTT: 300 ms, ACK hold: 200 ms
                Flags: higher precedence, retransmission timeout, nagle, path mtu capable

                Enabling TCP Path MTU Discovery for a Single BGP Neighbor

                Perform this task to establish a peering session with an eBGP neighbor and then enable TCP path MTU discovery for the BGP neighbor session. The neighbor transport command can be used in router configuration mode or address family configuration mode.

                SUMMARY STEPS

                  1.    enable

                  2.    configure terminal

                  3.    router bgp autonomous-system-number

                  4.    address-family {ipv4 [mdt | multicast | unicast [vrf vrf-name] | vrf vrf-name] | vpnv4 [unicast]}

                  5.    neighbor {ip-address| peer-group-name} remote-as autonomous-system-number

                  6.    neighbor {ip-address| peer-group-name} activate

                  7.    neighbor {ip-address| peer-group-name} transport{connection-mode | path-mtu-discovery}

                  8.    end

                  9.    show ip bgp neighbors [ip-address]


                DETAILED STEPS
                   Command or ActionPurpose
                  Step 1 enable


                  Example:
                  Device> enable
                   

                  Enables privileged EXEC mode.

                  • Enter your password if prompted.

                   
                  Step 2 configure terminal


                  Example:
                  Device# configure terminal
                   

                  Enters global configuration mode.

                   
                  Step 3 router bgp autonomous-system-number


                  Example:
                  Device(config)# router bgp 45000
                   

                  Enters router configuration mode for the specified routing process.

                   
                  Step 4 address-family {ipv4 [mdt | multicast | unicast [vrf vrf-name] | vrf vrf-name] | vpnv4 [unicast]}


                  Example:
                  Device(config-router)# address-family ipv4 unicast
                   

                  Enters address family configuration mode to configure BGP peers to accept address-family-specific configurations.

                  • The example creates an IPv4 unicast address family session.

                   
                  Step 5 neighbor {ip-address| peer-group-name} remote-as autonomous-system-number


                  Example:
                  Device(config-router-af)# neighbor 192.168.2.2 remote-as 50000
                   

                  Adds the IP address or peer group name of the neighbor in the specified autonomous system to the IPv4 multiprotocol BGP neighbor table of the local router.

                   
                  Step 6 neighbor {ip-address| peer-group-name} activate


                  Example:
                  Device(config-router-af)# neighbor 192.168.2.2 activate
                   

                  Activates the neighbor under the IPv4 address family.

                   
                  Step 7 neighbor {ip-address| peer-group-name} transport{connection-mode | path-mtu-discovery}


                  Example:
                  Device(config-router-af)# neighbor 192.168.2.2 transport path-mtu-discovery
                   

                  Enables TCP path MTU discovery for a single BGP neighbor.

                   
                  Step 8 end


                  Example:
                  Device(config-router-af)# end
                   

                  Exits address family configuration mode and returns to privileged EXEC mode.

                   
                  Step 9 show ip bgp neighbors [ip-address]


                  Example:
                  Device# show ip bgp neighbors 192.168.2.2
                   

                  (Optional) Displays information about the TCP and BGP connections to neighbors.

                  Note   

                  Only the syntax applicable to this task is used in this example. For more details, see the Cisco IOS IP Routing: BGP Command Reference.

                   

                  Examples

                  The following sample output from the show ip bgp neighbors command shows that TCP path MTU discovery is enabled for the BGP neighbor at 192.168.2.2. Two entries in the output—Transport(tcp) path-mtu-discovery is enabled and path-mtu capable—show that TCP path MTU discovery is enabled.

                  Router# show ip bgp neighbors 192.168.2.2
                  BGP neighbor is 192.168.2.2,  remote AS 50000, external link
                    BGP version 4, remote router ID 10.2.2.99
                  .
                  .
                  .
                   For address family: IPv4 Unicast
                    BGP table version 4, neighbor version 4/0
                  .
                  .
                  .
                    Address tracking is enabled, the RIB does have a route to 192.168.2.2
                    Address tracking requires at least a /24 route to the peer
                    Connections established 2; dropped 1
                    Last reset 00:05:11, due to User reset
                    Transport(tcp) path-mtu-discovery is enabled
                  .
                  .
                  .
                  SRTT: 210 ms, RTTO: 904 ms, RTV: 694 ms, KRTT: 0 ms
                  minRTT: 20 ms, maxRTT: 300 ms, ACK hold: 200 ms
                  Flags: higher precedence, retransmission timeout, nagle, path mtu capable

                  Configuration Examples for BGP Neighbor Session Options

                  Example: Configuring Fast Session Deactivation for a BGP Neighbor

                  In the following example, the BGP routing process is configured on device A and device B to monitor and use fast peering session deactivation for the neighbor session between the two devices. Although fast peering session deactivation is not required at both devices in the neighbor session, it will help the BGP networks in both autonomous systems to converge faster if the neighbor session is deactivated.

                  Device A

                  router bgp 40000 
                   neighbor 192.168.1.1 remote-as 45000 
                   neighbor 192.168.1.1 fall-over 
                   end 

                  Device B

                  router bgp 45000 
                   neighbor 192.168.1.2 remote-as 40000 
                   neighbor 192.168.1.2 fall-over 
                   end 

                  Example: Configuring Selective Address Tracking for Fast Session Deactivation

                  The following example shows how to configure the BGP peering session to be reset if a route with a prefix of /28 or a more specific route to a peer destination is no longer available:

                  router bgp 45000 
                   neighbor 192.168.1.2 remote-as 40000 
                   neighbor 192.168.1.2 fall-over route-map CHECK-NBR
                   exit
                  ip prefix-list FILTER28 seq 5 permit 0.0.0.0/0 ge 28
                  route-map CHECK-NBR permit 10
                   match ip address prefix-list FILTER28
                   end

                  Example: Configuring BFD for a BGP IPv6 Neighbor

                  The following example configures FastEthernet interface 0/1 with the IPv6 address 2001:DB8:4:1::1. Bidirectional Forwarding Detection (BFD) is configured for the BGP neighbor at 2001:DB8:5:1::2. BFD will track forwarding path failure of the BGP neighbor and provide faster reconvergence time for BGP after a forwarding path failure.

                  ipv6 unicast-routing
                  ipv6 cef
                  interface fastethernet 0/1
                   ipv6 address 2001:DB8:4:1::1/64
                   bfd interval 500 min_rx 500 multiplier 3
                   no shutdown
                   exit
                  router bgp 65000
                   no bgp default ipv4-unicast
                   address-family ipv6 unicast
                   neighbor 2001:DB8:5:1::2 remote-as 65001
                   neighbor 2001:DB8:5:1::2 fall-over bfd
                   end

                  Example: Configuring the TTL-Security Check

                  The example configurations in this section show how to configure the BGP Support for TTL Security Check feature.

                  The following example uses the trace command to determine the hop count to an eBGP peer. The hop count number is displayed in the output for each networking device that IP packets traverse to reach the specified neighbor. In the following example, the hop count for the 10.1.1.1 neighbor is 1.

                  Router# trace ip 10.1.1.1
                  Type escape sequence to abort.
                  Tracing the route to 10.1.1.1
                    1 10.1.1.1 0 msec *  0 msec
                  

                  The following example sets the hop count to 2 for the 10.1.1.1 neighbor. Because the hop-count argument is set to 2, BGP will accept only IP packets with a TTL count in the header that is equal to or greater than 253.

                  Router(config-router)# neighbor 10.1.1.1 ttl-security hops 2
                  

                  Examples: Configuring BGP Support for TCP Path MTU Discovery per Session

                  This section contains the following configuration examples:

                  Example: Disabling TCP Path MTU Discovery Globally for All BGP Sessions

                  The following example shows how to disable TCP path MTU discovery for all BGP neighbor sessions. Use the show ip bgp neighbors command to verify that TCP path MTU discovery has been disabled.

                  enable
                  configure terminal
                   router bgp 45000
                    no bgp transport path-mtu-discovery
                    end
                  show ip bgp neighbors

                  Example: Disabling TCP Path MTU Discovery for a Single BGP Neighbor

                  The following example shows how to disable TCP path MTU discovery for an eBGP neighbor at 192.168.2.2:

                  enable
                  configure terminal
                   router bgp 45000
                    neighbor 192.168.2.2 remote-as 50000
                    neighbor 192.168.2.2 activate
                    no neighbor 192.168.2.2 transport path-mtu-discovery
                    end
                  show ip bgp neighbors 192.168.2.2

                  Example: Enabling TCP Path MTU Discovery Globally for All BGP Sessions

                  The following example shows how to enable TCP path MTU discovery for all BGP neighbor sessions. Use the show ip bgp neighbors command to verify that TCP path MTU discovery has been enabled.

                  enable
                  configure terminal
                   router bgp 45000
                    bgp transport path-mtu-discovery
                    end
                  show ip bgp neighbors

                  Example: Enabling TCP Path MTU Discovery for a Single BGP Neighbor

                  The following example shows how to enable TCP path MTU discovery for an eBGP neighbor at 192.168.2.2. Use the show ip bgp neighbors command to verify that TCP path MTU discovery has been enabled.

                  enable
                  configure terminal
                   router bgp 45000
                    neighbor 192.168.2.2 remote-as 50000
                    neighbor 192.168.2.2 activate
                    neighbor 192.168.2.2 transport path-mtu-discovery
                    end
                  show ip bgp neighbors 192.168.2.2

                  Where to Go Next

                  For information about advertising the bandwidth of an autonomous system exit link as an extended community, refer to the “BGP Link Bandwidth” module.

                  Additional References

                  Related Documents

                  Related Topic

                  Document Title

                  Cisco IOS commands

                  Cisco IOS Master Command List, All Releases

                  BGP commands: complete command syntax, command mode, defaults, command history, usage guidelines, and examples

                  Cisco IOS IP Routing: BGP Command Reference

                  Overview of Cisco BGP conceptual information with links to all the individual BGP modules

                  “Cisco BGP Overview” module

                  Conceptual and configuration details for basic BGP tasks

                  “Configuring a Basic BGP Network” module

                  Conceptual and configuration details for advanced BGP tasks

                  “Configuring Advanced BGP Features” module

                  Bidirectional Forwarding Detection configuration tasks

                  IP Routing: BFD Configuration Guide

                  Standards

                  Standard

                  Title

                  MDT SAFI

                  MDT SAFI

                  MIBs

                  MIB

                  MIBs Link

                  CISCO-BGP4-MIB

                  To locate and download MIBs for selected platforms, Cisco IOS XE software releases, and feature sets, use Cisco MIB Locator found at the following URL:

                  http:/​/​www.cisco.com/​go/​mibs

                  RFCs

                  RFC

                  Title

                  RFC 1191

                  Path MTU Discovery

                  RFC 1771

                  A Border Gateway Protocol 4 (BGP-4)

                  RFC 1772

                  Application of the Border Gateway Protocol in the Internet

                  RFC 1773

                  Experience with the BGP Protocol

                  RFC 1774

                  BGP-4 Protocol Analysis

                  RFC 1930

                  Guidelines for Creation, Selection, and Registration of an Autonomous System (AS)

                  RFC 2858

                  Multiprotocol Extensions for BGP-4

                  RFC 2918

                  Route Refresh Capability for BGP-4

                  Technical Assistance

                  Description

                  Link

                  The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password.

                  http:/​/​www.cisco.com/​cisco/​web/​support/​index.html

                  Feature Information for Configuring BGP Neighbor Session Options

                  The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.

                  Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/​go/​cfn. An account on Cisco.com is not required.
                  Table 1 Feature Information for Configuring BGP Neighbor Session Options Features

                  Feature Name

                  Releases

                  Feature Information

                  BGP Support for TCP Path MTU Discovery per Session

                  12.2(33)SRA

                  12.2(31)SB

                  12.2(33)SXH

                  12.4(20)T

                  15.0(1)S

                  BGP support for TCP path maximum transmission unit (MTU) discovery introduced the ability for BGP to automatically discover the best TCP path MTU for each BGP session. The TCP path MTU is enabled by default for all BGP neighbor sessions, but you can disable, and subsequently enable, the TCP path MTU globally for all BGP sessions or for an individual BGP neighbor session.

                  The following commands were introduced or modified by this feature: bgp transport, neighbor transport, show ip bgp neighbors.

                  BGP Support for TTL Security Check

                  12.0(27)S

                  12.3(7)T

                  12.2(25)S

                  12.2(18)SXE

                  15.0(1)S

                  The BGP Support for TTL Security Check feature introduced a lightweight security mechanism to protect external Border Gateway Protocol (eBGP) peering sessions from CPU utilization-based attacks using forged IP packets. Enabling this feature prevents attempts to hijack the eBGP peering session by a host on a network segment that is not part of either BGP network or by a host on a network segment that is not between the eBGP peers.

                  The following commands were introduced or modified by this feature: neighbor ttl-security, show ip bgp neighbors.

                  BGP IPv6 Client for Single-Hop BFD

                  15.1(2)S

                  15.2(3)T

                  15.2(4)S

                  Bidirectional Forwarding Detection (BFD) can be used to track fast forwarding path failure of BGP neighbors that use an IPv6 address.

                  The following command was modified by this feature: neighbor fall-over.

                  In Cisco IOS Release 15.2(4)S, support was added for the Cisco 7200 series router.